Affiliation:
1. Laboratory of Pollutant Chemistry and Environmental Treatment School of Chemistry and Environmental Science Yili Normal University Yining 835000
2. School of Energy Environmental Engineering University of Science Technology Beijing Beijing 100083
3. Key Laboratory of Pollutant Chemistry and Environmental Treatment School of Chemistry and Environmental Science Yili Normal University Yining 835000 China
4. BGRIMM Technology Group
5. School of Energy Environmental Engineering University of Science Technology Beijing Beijing 100083 China
Abstract
AbstractThe article takes 13X molecular sieve as the object, studies the effects of three modification methods, including calcination temperature, NaOH solution concentration, and CuO and MnO2 loading, on the adsorption performance of SO2 on 13X molecular sieve, and preliminarily explores the adsorption kinetics characteristics of 13X‐xwt % MnO2. The results show that the modification method of loading 13X‐6wt %MnO2 is better, the penetration adsorption time is about 130 minutes, and the maximum penetrable adsorption capacity is 57.8 mg⋅g‐1 .The adsorption kinetics study of 13X‐6wt % MnO2 shows that the R2 of the quasi‐second‐order model is close to 0.99, indicating that the adsorption process follows the quasi‐second‐order kinetic equation. The particle diffusion kinetic model fitting shows that the adsorption process is divided into two stages, the first stage is rapid adsorption, which is mainly controlled by surface adsorption and intraparticle diffusion rate, while the second stage is mainly microporous or chemisorption, with a smaller adsorption amount.